Experts in fast-ball sports reduce anticipation timing cost by developing inhibitory control

► Experts in fast ball sports adapt readily to changing environment. ► A better adaptation is due to efficient reprogramming of prepared motor output. ► Experts reveal augmented frontal activity in ERP after environmental changes. ► Experts replace inadequate commands with whole new commands by an i...

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Veröffentlicht in:	Brain and cognition 2012-10, Vol.80 (1), p.23-32
Hauptverfasser:	Nakamoto, Hiroki, Mori, Shiro
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Sprache:	eng
Schlagworte:	Activity levels. Psychomotricity Adolescent Applied psychology Biological and medical sciences Brain - physiology Brain Hemisphere Functions Cognitive ability Cognitive Processes Correlation Diagnostic Tests Electroencephalography Error Correction Evoked Potentials - physiology Expertise Fundamental and applied biological sciences. Psychology Humans Inhibition Inhibition (Psychology) Male Motion Motor Reactions Movement - physiology Movement correction Physics Prediction Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Psychomotor activities Psychomotor Performance - physiology Reaction Time - physiology Reprogramming Sports Sports - physiology Sports. Leisure Stimuli Task Analysis Team Sports Visual Perception - physiology Young Adult
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description	► Experts in fast ball sports adapt readily to changing environment. ► A better adaptation is due to efficient reprogramming of prepared motor output. ► Experts reveal augmented frontal activity in ERP after environmental changes. ► Experts replace inadequate commands with whole new commands by an inhibitory control. The present study was conducted to examine the relationship between expertise in movement correction and rate of movement reprogramming within limited time periods, and to clarify the specific cognitive processes regarding superior reprogramming ability in experts. Event-related potentials (ERPs) were recorded in baseball experts (n=7) and novices (n=7) while they completed a predictive task. The task was to manually press a button to coincide with the arrival of a moving target. The target moved at a constant velocity, and its velocity was suddenly decreased in some trials. Under changed velocity conditions, the baseball experts showed significantly smaller timing errors and a higher rate of timing reprogramming than the novices. Moreover, ERPs in baseball experts revealed faster central negative deflection and augmented frontal positive deflection at 200ms (N200) and 300ms (Pd300) after target deceleration, respectively. Following this, peak latency of the next positive component in the central region (P300b) was delayed. The negative deflection at 200ms, augmented frontal positive deflection, and late positive deflection at 300ms have been interpreted as reflecting stimulus detection, motor inhibition, and stimulus–response translation processes. Taken together, these findings suggest that the experts have developed movement reprogramming to avoid anticipation cost, and this is characterized by quick detection of target velocity change, stronger inhibition of the planned, incorrect response, and update of the stimulus–response relationship in the changed environment.
doi_str_mv	10.1016/j.bandc.2012.04.004
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The present study was conducted to examine the relationship between expertise in movement correction and rate of movement reprogramming within limited time periods, and to clarify the specific cognitive processes regarding superior reprogramming ability in experts. Event-related potentials (ERPs) were recorded in baseball experts (n=7) and novices (n=7) while they completed a predictive task. The task was to manually press a button to coincide with the arrival of a moving target. The target moved at a constant velocity, and its velocity was suddenly decreased in some trials. Under changed velocity conditions, the baseball experts showed significantly smaller timing errors and a higher rate of timing reprogramming than the novices. Moreover, ERPs in baseball experts revealed faster central negative deflection and augmented frontal positive deflection at 200ms (N200) and 300ms (Pd300) after target deceleration, respectively. 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The present study was conducted to examine the relationship between expertise in movement correction and rate of movement reprogramming within limited time periods, and to clarify the specific cognitive processes regarding superior reprogramming ability in experts. Event-related potentials (ERPs) were recorded in baseball experts (n=7) and novices (n=7) while they completed a predictive task. The task was to manually press a button to coincide with the arrival of a moving target. The target moved at a constant velocity, and its velocity was suddenly decreased in some trials. Under changed velocity conditions, the baseball experts showed significantly smaller timing errors and a higher rate of timing reprogramming than the novices. Moreover, ERPs in baseball experts revealed faster central negative deflection and augmented frontal positive deflection at 200ms (N200) and 300ms (Pd300) after target deceleration, respectively. 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Psychomotricity</subject><subject>Adolescent</subject><subject>Applied psychology</subject><subject>Biological and medical sciences</subject><subject>Brain - physiology</subject><subject>Brain Hemisphere Functions</subject><subject>Cognitive ability</subject><subject>Cognitive Processes</subject><subject>Correlation</subject><subject>Diagnostic Tests</subject><subject>Electroencephalography</subject><subject>Error Correction</subject><subject>Evoked Potentials - physiology</subject><subject>Expertise</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Humans</subject><subject>Inhibition</subject><subject>Inhibition (Psychology)</subject><subject>Male</subject><subject>Motion</subject><subject>Motor Reactions</subject><subject>Movement - physiology</subject><subject>Movement correction</subject><subject>Physics</subject><subject>Prediction</subject><subject>Psychology. Psychoanalysis. Psychiatry</subject><subject>Psychology. 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Psychomotricity</topic><topic>Adolescent</topic><topic>Applied psychology</topic><topic>Biological and medical sciences</topic><topic>Brain - physiology</topic><topic>Brain Hemisphere Functions</topic><topic>Cognitive ability</topic><topic>Cognitive Processes</topic><topic>Correlation</topic><topic>Diagnostic Tests</topic><topic>Electroencephalography</topic><topic>Error Correction</topic><topic>Evoked Potentials - physiology</topic><topic>Expertise</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Humans</topic><topic>Inhibition</topic><topic>Inhibition (Psychology)</topic><topic>Male</topic><topic>Motion</topic><topic>Motor Reactions</topic><topic>Movement - physiology</topic><topic>Movement correction</topic><topic>Physics</topic><topic>Prediction</topic><topic>Psychology. Psychoanalysis. Psychiatry</topic><topic>Psychology. Psychophysiology</topic><topic>Psychomotor activities</topic><topic>Psychomotor Performance - physiology</topic><topic>Reaction Time - physiology</topic><topic>Reprogramming</topic><topic>Sports</topic><topic>Sports - physiology</topic><topic>Sports. Leisure</topic><topic>Stimuli</topic><topic>Task Analysis</topic><topic>Team Sports</topic><topic>Visual Perception - physiology</topic><topic>Young Adult</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Nakamoto, Hiroki</creatorcontrib><creatorcontrib>Mori, Shiro</creatorcontrib><collection>ERIC</collection><collection>ERIC (Ovid)</collection><collection>ERIC</collection><collection>ERIC</collection><collection>ERIC (Legacy Platform)</collection><collection>ERIC( SilverPlatter )</collection><collection>ERIC</collection><collection>ERIC PlusText (Legacy Platform)</collection><collection>Education Resources Information Center (ERIC)</collection><collection>ERIC</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>Neurosciences Abstracts</collection><jtitle>Brain and cognition</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Nakamoto, Hiroki</au><au>Mori, Shiro</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><ericid>EJ974404</ericid><atitle>Experts in fast-ball sports reduce anticipation timing cost by developing inhibitory control</atitle><jtitle>Brain and cognition</jtitle><addtitle>Brain Cogn</addtitle><date>2012-10-01</date><risdate>2012</risdate><volume>80</volume><issue>1</issue><spage>23</spage><epage>32</epage><pages>23-32</pages><issn>0278-2626</issn><eissn>1090-2147</eissn><coden>BRCOEI</coden><abstract>► Experts in fast ball sports adapt readily to changing environment. ► A better adaptation is due to efficient reprogramming of prepared motor output. ► Experts reveal augmented frontal activity in ERP after environmental changes. ► Experts replace inadequate commands with whole new commands by an inhibitory control. The present study was conducted to examine the relationship between expertise in movement correction and rate of movement reprogramming within limited time periods, and to clarify the specific cognitive processes regarding superior reprogramming ability in experts. Event-related potentials (ERPs) were recorded in baseball experts (n=7) and novices (n=7) while they completed a predictive task. The task was to manually press a button to coincide with the arrival of a moving target. The target moved at a constant velocity, and its velocity was suddenly decreased in some trials. Under changed velocity conditions, the baseball experts showed significantly smaller timing errors and a higher rate of timing reprogramming than the novices. Moreover, ERPs in baseball experts revealed faster central negative deflection and augmented frontal positive deflection at 200ms (N200) and 300ms (Pd300) after target deceleration, respectively. Following this, peak latency of the next positive component in the central region (P300b) was delayed. The negative deflection at 200ms, augmented frontal positive deflection, and late positive deflection at 300ms have been interpreted as reflecting stimulus detection, motor inhibition, and stimulus–response translation processes. Taken together, these findings suggest that the experts have developed movement reprogramming to avoid anticipation cost, and this is characterized by quick detection of target velocity change, stronger inhibition of the planned, incorrect response, and update of the stimulus–response relationship in the changed environment.</abstract><cop>Amsterdam</cop><pub>Elsevier Inc</pub><pmid>22626919</pmid><doi>10.1016/j.bandc.2012.04.004</doi><tpages>10</tpages></addata></record>
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subjects	Activity levels. Psychomotricity Adolescent Applied psychology Biological and medical sciences Brain - physiology Brain Hemisphere Functions Cognitive ability Cognitive Processes Correlation Diagnostic Tests Electroencephalography Error Correction Evoked Potentials - physiology Expertise Fundamental and applied biological sciences. Psychology Humans Inhibition Inhibition (Psychology) Male Motion Motor Reactions Movement - physiology Movement correction Physics Prediction Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Psychomotor activities Psychomotor Performance - physiology Reaction Time - physiology Reprogramming Sports Sports - physiology Sports. Leisure Stimuli Task Analysis Team Sports Visual Perception - physiology Young Adult
title	Experts in fast-ball sports reduce anticipation timing cost by developing inhibitory control
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